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The Physical Properties of Non-Circular Shaper(+Type) DTY Yarn

이형단면(+Type) DTY사의 물성변화

  • Received : 2010.06.09
  • Accepted : 2010.06.21
  • Published : 2011.02.28

Abstract

In the study, the physical properties of the raw sample, non-circular(+ type) DTY yarn(50d level) with absorption and quick-dry function, were examined before and after being twisted(1000T/M). The results are as follows: The shrinkage of non-cricular(+type) DTY yarn(50d/36f) at $180^{\circ}$ was about 6-7% with twisted samples, but the samples without twisting went 8 to 10%. The elongation of the non-twisted and twisted samples at $180^{\circ}$ and 30-minute treatment time reached 50% and 40%, respectively. The tenacity of non-cricular(+type) DTY yarn(50d/36f) was affected less by treatment temperature in the twisted condition.

Keywords

References

  1. 주) 새한, (2004). 이형단면 연신사의 제조방법. 대한민국특허청, 10-2004-0097445.
  2. 주) 효성, (2006). 이형단면형 방사구금 및 이를 이용한 섬유의 제조 방법. 대한민국특허청, 10-2006-0099427.
  3. Rudolf, A., & Gersak, J. (2006), The Inference of thread twist on alteration in fibers. Textile Research Journal, 76(2), 134-144. https://doi.org/10.1177/0040517506057424
  4. Broughton, R. H., Mogahzy, Y. E., & Hall, D. M. (1992). Mechanism of yarn failure. Textile Research Journal, 62(3), 31-34.
  5. Hatch, K. L. (1993). Textile Science. University of Arizona Tucson.
  6. Hearle, J. W. S., Gorsberg, P., & Backer, S. (1969). Structural mechanics of fiber, yarns and fabrics, 1, Wiley-interscience, New York, USA, pp. 191-205.
  7. Kuraray. (2003). Porous type hollow fiber and its production. Japan Patent, 2003-221727.
  8. Lee, S. B. (2001). Toplon Fiber, 8, Hyosung LTD.
  9. Ongu, T. H., and Philps, G. O., (1990). New fibers. 2nd Ed., Woodhead Ltd. pp.164-190.
  10. Pan, N., Hau, T., & Qiu, Y. (2001). Relationship between fiber and yarn strength. Textile Research Journal, 71(11), 960-964. https://doi.org/10.1177/004051750107101105
  11. Teijin LTD. (2003). Water-absorbing polyeter fiber. Japan Patent, 2003-129340.
  12. Toyobo LTD. (2004). Antimicrobial fiber and textile product. Japan Patent, 2004-468210.
  13. 宮本武明, 本宮達也. (1992). 新纖維材料入門(日). 日刊工業新聞社, pp. 114-136.
  14. 遠山俊之. (1986). 纖維加工の 今後 の 課題, 染色工業(日). 34, 54-62.
  15. 日本纖維學會編. (1983). 圖說纖維形態. (2nd Ed.). 朝倉書店(株), pp. 174.

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